Di-π0 Production and Generalized Distribution Amplitudes at Future Electron-Ion Colliders

Abstract

Generalized distribution amplitudes (GDAs) offer valuable insights into the three-dimensional structure of hadrons, delineating the amplitudes associated with the transition from a quark-antiquark pair to a hadron pair. Currently, hadron GDAs can be probed in electron-positron collisions, with experimental feasibility demonstrated at facilities such as Belle and BESIII. In this study, we put forth the proposition that hadron GDAs can also be investigated in electron-hadron collisions at forthcoming Electron-Ion Colliders (EICs), specifically through the subprocess γ*γ h1 h2. In this framework, a quasi-real photon, emitted by the ion, exhibits a photon flux proportional to the square of the ion's electric charge. Consequently, we anticipate that the cross sections in EICs will be substantially larger than those in electron-positron collisions. We present numerical calculations pertaining to di-π0 production employing the equivalent photon approximation (EPA). Our findings suggest that, within the same kinematic region, electron-proton (e-p) collisions at the EIC could yield an event rate comparable to that of Belle II, while electron-gold (e-Au) collisions are expected to generate an even greater number of events. This enhanced event rate facilitates a high-precision examination of di-π0 GDAs at the EIC.